KR101207067B1 - load testing tool for pod lifting equipment - Google Patents

Abstract

PURPOSE: A tool for a load test of a pod lifting device is provided to test the lifting load strength of a lifting device by joining a tool being composed of a base body and auxiliary heavy body to the top of a pod, thereby enhancing workability and convenience of the load test of the lifting device. CONSTITUTION: A tool for a load test of a pod lifting device comprises a base body(10), two first auxiliary heavy bodies(20), a carrying connection stand(30), a pedestal(40), a linkage(50), and a fork inlet(60). Four pod joining holes(11) are formed along an edge of the base body. The first auxiliary heavy bodies are installed on the top of the base body to be faced to each other. Both end parts of the carrying connection stand are respectively welded to the inner surfaces of the two first auxiliary heavy bodies, thereby connecting the two first auxiliary heavy bodies. The base body is seated on the pedestal. The linkage is arranged on the top of the pedestal. The fork inlet is arranged in the lower part of the pedestal.

Description

Load testing tool for pod lifting equipment

The present invention relates to a load test fixture for a pod lifting device, and more particularly, it is possible to test the load strength of the lifting device installed on the pod mounted on the top of the pod to improve the load testability of the pod and The present invention relates to a pod lifting device jig for testing convenience.

In general, in order to lift a rocket pod equipped with multiple rockets into and out of a launch pad system, instead of having a separate lifting device, a lifting device is provided in the launch pad system itself, thereby inducing the efficiency of the rocket pod lifting operation. .

For example, recently developed rocket pods have a front-loading launch pad system, and instead of using a separate crane outside, the rocket pods are mounted using a lifting device built into the system itself.

The rocket pod front insertion type launch pad is composed of a launch pad housing, a fixed beam, an intermediate beam, an intermediate beam transport means, a rocket pod carrier, a rocket pod lifting device, a pinion, and a rack, and the intermediate beam is forwarded by the intermediate beam transport means. As the rack is provided on the inside of the fixed beam, the rack rotates the pinion provided on the upper surface of the rocket pod carrier via the pinion so that the rocket pod carrier is moved forward.

On the other hand, the lifting device for lifting the pod is testing whether the lifting device can support the load of the pod, and in the case of the conventional pod load test, concrete is placed inside the rocket receiving portion of the pod, and the actual rocket is mounted. The load strength of the lifting device is tested by lifting the pod loaded with the rocket receptacle with concrete poured inside the lifting device.

For example, when the load of the pod is 2500kg, the concrete is poured inside the rocket accommodating part 2 of the pod 1 so that a load of 3125kg, which is 1.5 times the 2500kg, is generated, and then poured. When the concrete is cured, the lifting device is connected to the pod to operate the lifting device to test whether the lifting device can support the load of the pod by lifting the pod and holding it for at least 10 minutes. .

However, the process of testing the load strength of the lifting device is complicated as the concrete is to be poured and the curing of the poured concrete is carried out. In addition, when the cast concrete is broken inside the rocket accommodating part, the accurate load is applied. There is a problem that the load test of the lifting device is not made precisely because it cannot be obtained.

In addition, it is difficult to place concrete inside the rocket accommodation part in a narrow space, which makes the work efficiency of placing concrete remarkably inferior, and it is difficult to place concrete inside the rocket accommodation part which is provided in a long space, and concrete is not evenly placed. As a result, problems such as cracks are generated in the curing process of concrete.

As a prior art, weights for load testing of conveying equipment, which is disclosed in Korean Patent Application Publication No. 10-2012-0058108, have been devised, which are loaded on a sheet of conveying equipment, and loaded on top while guiding the loading positions of other weights loaded on the upper portion. A weight for a load test of a conveying equipment to fix the other weight, the body provided in the form of a block of a polyhedron, and at least one wire connection member on each side of the body, the body At least one guide member is provided on the upper edge of the body to fix the lower portion of the other weight to be loaded on the upper part of the body, so that the sheet or the tralee equipped with the sheet is moved or the weight to be loaded when the weight is loaded first Prevents weights from falling under seat as they collide with loaded weights To make sure.

As another example, a tralee load test apparatus, which is disclosed in Korean Patent Laid-Open Publication No. 10-2012-0059736, has been devised, which allows a weight for load testing to have a finely adjustable load on a lower portion of a sheet loaded thereon. The present invention relates to a tralee load test apparatus, comprising: a seat having a loading space in which weights are placed on an upper portion thereof, a water bag having a load suspended from a lower portion of the sheet, and a water bag placed under the sheet. It is composed of jig to connect and expects the effect of conducting precise tralee load test.

These prior arts allow the weight to fall under the seat or to be subjected to a precise load test, but, as mentioned above, it is not suitable for the load test of the lifting device provided in the launch pad to which the rocket pod pod is loaded. In particular, there is a problem in that no means for testing whether the lifting device supports the load of the pod on which the rocket is mounted is not provided at all.

Republic of Korea Patent Publication 10-2012-0058108 (2012.06.07 published) Republic of Korea Patent Publication 10-2012-0059736 (2012.06.11 published)

The present invention has been made in order to solve the problems caused in testing the load of the lifting device provided in the launch pad on which the conventional rocket is mounted, by having a jig having a weight on the upper part of the pod, the pod is appropriately adjusted by the load of the jig. As the load is maintained so that the load test of the lifting device can be carried out, the problem caused by the occurrence of the concrete or the cracking or breaking of the placed concrete is solved. The objective is to provide a pod lifting device load test fixture that provides convenience.

As a means for achieving the above object, the pod lifting device load test jig of the present invention includes: a base body through which four pod fastening holes are respectively perforated along an edge thereof; Two first auxiliary weights provided to face each other on an upper end of the base body; A transport connecting rod, each end of which is welded to inner surfaces of the two first auxiliary weights so as to connect the two first auxiliary weights; A seating table on which the base body is seated; A connecting ring provided at an upper end of the seating plate; It includes a fork inlet provided in the lower portion of the seating.

In the two first auxiliary weights provided to face each other on the upper end of the base body, the upper end of the base body and the lower end of the two auxiliary weights are welded by a welding part.

In addition, a first bolt hole is further provided at an upper end of the base body, and two first auxiliary weight bodies provided to face each other at an upper end of the base body are further provided with a first bolt inlet hole, respectively, and the base body. After the first bolt inlet holes provided in the two first auxiliary weights are positioned to correspond to each other in the first bolt hole provided at the upper end of the first bolt, the first fastening bolt is drawn in from the first bolt inlet hole. The base body and the two auxiliary weights are bolted to each other by being fastened to one bolt hole.

In addition, each of the upper ends of the base body is further provided with a second bolt hole, and a second auxiliary weight having a second bolt inlet hole corresponding to the second bolt hole is further provided, the second auxiliary weight The second bolts are respectively seated on both sides of the upper end of the base body so that the second bolt inlet hole of the second auxiliary weight body is located to correspond to the second bolt holes provided on both sides of the upper end of the base body, respectively, It is made to be screwed by being drawn in from the second bolt inlet hole and fastened to the second bolt hole.

In addition, coupling grooves are further provided at both sides of the second bolt holes provided at both sides of the upper end of the base body, and coupling protrusions respectively fitted to the coupling grooves are provided at both lower ends of the second auxiliary weight. .

According to the present invention, a jig composed of a base having a weight and an auxiliary weight can be coupled to the upper end of the pod to test the lifting load strength of the lifting device, thereby greatly improving workability and convenience according to the load test of the lifting device. In addition, since the exact load of the jig is transmitted to the pod, not only can the precise and precise load strength test of the lifting device according to the pod's accurate load be performed, but the jig can be easily detached from the pod to increase the load strength of the pod. It can be different and can be tested by varying the load strength according to the lifting device, and it is easy to store and transport heavy fixtures, which can greatly improve the work efficiency and storage.

1 is a perspective view showing a conventional pod.
Figure 2 is a perspective view showing an example of the pod lifting device load test jig of the present invention.
Figure 3 is a perspective view showing another embodiment of the present invention for the pod lifting device load test jig.
Figure 4 is an exploded perspective view showing a state in which the pod lifting device load test jig of the present invention shown in Figure 2 is coupled to the pod.
Figure 5 is an exploded perspective view showing a state in which the present invention pod lifting device load test jig shown in Figure 3 is coupled to the pod.
6 is an exploded perspective view showing the configuration of the pod lifting device load test jig shown in FIG.
Figure 7 is an exploded perspective view showing another embodiment of the pod lifting device load test jig shown in FIG.
8 is a perspective view showing a state in which the pod lifting device jig load test fixture shown in FIG. 2 is lifted by the lifting device.
9 is a perspective view showing a state in which the pod lifting device jig load test fixture shown in FIG. 3 is lifted by the lifting device.

Hereinafter, the structure and operation of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, the term or word used in the present specification and claims is based on the principle that the inventor can appropriately define the concept of the term in order to best describe the invention of his or her own. It should be interpreted as meanings and concepts corresponding to the technical idea of

As shown in Fig. 2 and 3, the present invention for the pod lifting device load test jig, the base body 10 through each of the four pod fastening holes 11 along the edge and the upper end of the base body 10; Both ends are welded to inner surfaces of the two first auxiliary weights 20 so as to connect the two first auxiliary weights 20 and the two first auxiliary weights 20 to face each other. Carrying connection 30, a seating table 40, the base body 10 is seated, a connecting ring 50 provided on the upper end of the seating table 40, and the lower portion of the seating table 40 The fork inlet 60 is provided.

The mounting table 40, the connecting ring 50, and the fork inlet 60, on which the base body 10 is mounted, are a base body 10 having a heavy load as one of means for transporting the base body 10. ) To be easily transported using a forklift.

In addition, by connecting the wire of the crane to the connecting ring 50 can be carried by a forklift as well as a crane.

The base body 10 and the first auxiliary weight 20 have their own weight, and are formed with a weight suitable for testing the lifting load strength of the lifting device provided in the launch pad.

According to the present invention configured as described above, the pod fastening hole 11 of the base body 10 is located in the fastening hole 102 formed in the pod 101 as shown in FIG. The base body 10 is coupled to the upper end of the pod 101 by).

The pod 101 is provided with a pod lifting hook 103 and a rocket accommodating portion 104 for receiving a rocket, and the hook body 107 of the launch pad lifting device 106 hangs on the pod lifting hook 103. As a result, the pod 101 is lifted by the lifting device 106.

As such, when the pod 101 is lifted, the lifting operation of the lifting device 106 is stopped while the pod 101 is lifted to a certain height to test the load according to the lifting of the lifting device 106.

At this time, the weight of the pod 101 is substantially equal to the weight of the rocket 101 accommodated in the pod 101 by the base body 10 and the first auxiliary weight 20 provided at the upper end of the pod 101. As the weight is increased, the lifting load test of the lifting device 106 is precisely performed.

In addition, after the test is completed, the lifted pod 101 is lowered to the ground, and then the hook body 107 of the lifting device 106 connected to the pod lifting hook 103 of the pod 101 is removed, and the pod ( Separate the bolted base body 10 on the top of the 101.

As the base body 10 is coupled or separated from the upper end of the pod 101 as described above, it is easy to proceed when testing the load of another launch pad lifting device or when testing the lifting load of the pod 101. The base body 10 may be seated on the seat 40 again and stored separately.

The two first auxiliary weights 20 provided to face each other on the upper end of the base body 10, the upper end of the base body 10 and the lower ends of the two auxiliary weights 20 are welded parts 21. It is made by welding.

As such, since the base body 10 and the first auxiliary weight 20 are welded to each other by the welding portion 21, the base body 10 and the first auxiliary weight 20 can be firmly fixed. It is prevented from flowing when transported or mounted on a pod.

Further, first bolt holes 12 are further provided at the upper end of the base body 10, and each of the two first auxiliary weights 20 provided at the upper end of the base body 10 to face each other is provided. One bolt inlet holes 22 are further provided, and the first bolt holes 12 provided at the upper end of the base body 10 are first bolts provided in the two first auxiliary weights 20. After the mouth holes 22 are positioned to correspond to each other, the first fastening bolt 71 is introduced from the first bolt inlet hole 22 and fastened to the first bolt hole 12 so that the base body 10 is closed. ) And the two auxiliary weights 20 are bolted together.

Accordingly, since the two auxiliary weights 20 can be separated from the base body 10, the carrying and storage properties are more easily achieved, for example, the appropriate weight of the lifting device as the test object is carried out. (20) can be adjusted by coupling or separating the base body 10, greatly improving the convenience and workability according to the load test.

In addition, according to the present invention, second bolt holes 13 are further provided at both sides of the upper end of the base body 10, and second bolt inlet holes 81 corresponding to the second bolt holes 13 are provided. The second auxiliary weight 80 provided is further provided.

At this time, the second auxiliary weight 80 has a second bolt inlet hole of the second auxiliary weight 80 to the second bolt holes 13 provided on both sides of the upper end of the base body 10, respectively. 81 is seated on both sides of the upper end of the base body 10 so as to correspond to each other, and then a second fastening bolt 72 is drawn from the second bolt inlet hole 81 and fastened to the second bolt hole 13. By the second auxiliary weight 80 is made to be screwed to the upper end of the base body (10).

As such, the second auxiliary weight 80 is further provided, so that the load applied to the pod can be appropriately adjusted according to the load strength of the lifting device, thereby greatly improving the convenience of the load test.

In addition, coupling grooves 14 are further provided at both sides of the second bolt holes 13 provided at both sides of the upper end of the base body 10, respectively, at both lower ends of the second auxiliary weight body 80. The coupling protrusions 82 fitted into the grooves 14 are further provided.

Therefore, the coupling protrusion 82 of the second auxiliary weight 80 bolted to the upper end of the base body 10 by the second fastening bolt 72 is fitted into the coupling groove 14 of the base body 10. Since the bolt is fastened in a state, the flow of the second auxiliary weight 80 is prevented, so that the second auxiliary weight 80 and the base body 10 can be firmly fixed.

As described above, the present invention has been described with reference to a preferred embodiment of the present invention as being capable of various modifications, but the present invention is not limited to such an embodiment, and the embodiment is simply applied in combination with the known art. Together with the claims and the detailed description of the present invention it will be seen that the technology that can be used by those skilled in the art that the present invention belongs to be included in the technical scope of the present invention.

10: base body 11: pod fastening hole
12: first bolt hole 13: second bolt hole
14: coupling groove 20: the first auxiliary weight
21 welding part 22 first bolt inlet hole
30: transport connector 40: seating rod
50: connecting ring 60: fork entrance
71: first fastening bolt 72: second fastening bolt
80: second auxiliary weight 81: second bolt insertion hole
82: coupling protrusion

Claims (5)

A base body 10 through which each of the four pod fastening holes 11 is perforated;
Two first auxiliary weights 20 provided on the upper end of the base body 10 so as to face each other;
A transport connecting rod 30 having both ends welded to inner surfaces of the two first auxiliary weights 20 so as to connect the two first auxiliary weights 20;
A seating table 40 on which the base body 10 is seated;
A connecting ring 50 provided at an upper end of the seating table 40;
Ford lifting device load test jig characterized in that it comprises a fork inlet 60 provided in the lower portion of the seat 40.
The method according to claim 1,
Two first auxiliary weights 20 provided on the upper end of the base body 10 to face each other,
Ford lifting device load test jig, characterized in that the upper end of the base body 10 and the lower end of the two auxiliary weights 20 are welded by the welding portion (21).
The method according to claim 1,
First bolt holes 12 are further provided at an upper end of the base body 10,
Two first auxiliary weights 20 provided on the upper end of the base body 10 to face each other are further provided with first bolt inlet holes 22, respectively.
After the first bolt inlet holes 22 provided in the two first auxiliary weights 20 are positioned to correspond to each other in the first bolt holes 12 provided at the upper end of the base body 10,
The base body 10 and the two auxiliary weights 20 are formed by the first fastening bolt 71 being drawn in from the first bolt inlet hole 22 and fastened to the first bolt hole 12. Ford lifting device load test jig characterized in that the bolt is coupled.
The method according to claim 1,
Second bolt holes 13 are further provided at both sides of the upper end of the base body 10,
A second auxiliary weight 80 having second bolt inlet holes 81 corresponding to the second bolt holes 13 is further provided.
The second auxiliary weight 80,
The second bolt inlet hole 81 of the second auxiliary weight 80 is positioned to correspond to the second bolt hole 13 provided on both sides of the upper end of the base body 10 of the base body 10. The second auxiliary weights 80 are formed by being seated on both sides of the upper end, and then the second fastening bolts 72 are introduced from the second bolt inlet holes 81 and fastened to the second bolt holes 13. Ford lifting device load test jig, characterized in that the screw is fastened to the upper end of the base body (10).
The method of claim 4,
Coupling grooves 14 are further provided at both sides of the second bolt holes 13 provided at both sides of the upper end of the base body 10,
Ford lifting device load test jig, characterized in that the lower side of the second auxiliary weight (80) is further provided with engaging projections (82) which are respectively fitted in the coupling groove (14).

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